Cover glass arrangement for an electronic device

ABSTRACT

An electronic device can include a camera and a cover glass arrangement disposed over the camera. The cover glass arrangement includes a thinner region or cover glass that is positioned over a light-receiving region of the camera. Additionally, the thinner region or cover glass can be disposed over the light-receiving region and at least parts of one or more non-light receiving regions of the camera.

TECHNICAL FIELD

The present invention relates generally to electronic devices, and morespecifically, to cameras in electronic devices. Still more particularly,the present invention relates to a cover glass arrangement for a cameraincluded in an electronic device.

BACKGROUND

Many electronic devices, such as smart telephones, laptop computers, andtablet computing devices include a camera to capture images and video.FIG. 1 is a cross-sectional view of a prior art electronic device. Theelectronic device 100 includes a camera 102 positioned adjacent to asurface 104 of the electronic device. The surface can be the front orthe back surface of the electronic device 100. In some devices, a coverglass 106 is disposed over the surface 104 when the camera 102 ispositioned adjacent to the front surface of the electronic device 100.The cover glass 106 can provide various functions or features for theelectronic device. For example, in some embodiments, the cover glass 106can be a touchscreen and provide an aperture for a speaker andmicrophone.

In some embodiments, the cover glass 106 can constrain the amount ofspace that is available to the camera 102. As a result, thefunctionality of the camera can be limited. For example, a flash modulemay not be included in the electronic device, or the camera may notinclude an autofocus feature or a high quality lens.

SUMMARY

In one aspect, an electronic device can include a camera and a firstcover glass disposed over the camera. An opening can be formed throughthe first cover glass over a light-receiving region of the camera. Asecond cover glass can be positioned in the opening over thelight-receiving region of the camera. A thickness of the second coverglass is less than a thickness of the first cover glass. In someembodiments, the second cover glass is a lens for the camera.

In another aspect, an electronic device can include a camera and amonolithic cover glass disposed over the camera. The cover glassincludes a thinner region that is positioned over a light-receivingregion of the camera. The thinner region can act as a lens for thecamera.

In yet another aspect, a method for producing an electronic device caninclude providing a first cover glass having an opening formed throughthe first cover glass, and providing a second cover glass in theopening. A location of the opening corresponds to a light-receivingregion of a camera. A thickness of the second cover glass is less than athickness of the first cover glass.

In another aspect, a method for providing an electronic device caninclude providing a camera in the electronic device, and providing amonolithic cover glass over the camera. The cover glass includes athinner region that is positioned over a light-receiving region of thecamera.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the invention are better understood with reference to thefollowing drawings. The elements of the drawings are not necessarily toscale relative to each other. Identical reference numerals have beenused, where possible, to designate identical features that are common tothe figures.

FIG. 1 is a cross-sectional view of a prior art electronic device;

FIG. 2A illustrates a front perspective view of one example of anelectronic device that includes one or more cameras;

FIG. 2B depicts a rear perspective view of the electronic device 200shown in FIG. 2A;

FIGS. 3-5 are simplified cross-section views of examples of theelectronic device 200 taken along line A-A in FIG. 2A;

FIG. 6 is a flowchart of a method for producing the cover glassarrangement shown in FIG. 5; and

FIG. 7 is a flowchart of a method for producing the cover glassarrangement shown in FIGS. 3-4.

DETAILED DESCRIPTION

Embodiments described herein provide a cover glass arrangement for anelectronic device that includes one or more cameras. The cover glassarrangement can include a first cover glass and a second cover glass,where the second cover glass is positioned in an opening formed throughthe first cover glass. In one embodiment, the second cover glass can bedisposed over a light-receiving region of a camera. In anotherembodiment, the second cover glass is positioned over thelight-receiving region and at least part of one or more non-lightreceiving regions of the camera.

The second cover glass can have a thickness that is less than thethickness of the first cover glass. The thinner second cover glass canprovide additional space for the camera and/or for an optional lens. Insome embodiments, a higher quality camera can be included in anelectronic device when the additional space is provided by the thinnersecond cover glass. For example, a higher quality camera can include alarger sensor, higher quality lenses, an autofocus feature, and/or aflash module.

In another embodiment, the cover glass arrangement can include amonolithic cover glass that includes a thinner region formed in thecover glass. The thinner region can be disposed over the light-receivingregion, or over the light-receiving region and at least part of one ormore non-light receiving regions of the camera. Like the second coverglass, the thinner region can provide additional space for the cameraand/or for an optional lens.

Referring now to FIGS. 2A-2B, there are shown front and rear perspectiveviews of one example of an electronic device that can include one ormore cameras. The electronic device 200 includes a first camera 202, asecond camera 204, an enclosure 206, a display 210, an input/output(I/O) member 208, and an optional flash 212 or light source for thecamera or cameras. The electronic device 200 can also include one ormore internal components (not shown) typical of a computing orelectronic device, such as, for example, one or more processors, memorycomponents, network interfaces, and so on.

In the illustrated embodiment, a cover glass 214 is disposed over thefront surface 216 of the electronic device 200. The cover glass 214 canbe made of any suitable material, including, but not limited to, glass,plastic, acrylic, sapphire, and various combinations thereof. One ormore portions of the cover glass 214 can be an input region for a touchsensing device and/or a force sensing device. The cover glass 214 caninclude one or more apertures, such as an aperture for a speaker and/ora microphone 218 and the I/O member 208. In the illustrated embodiment,the cover glass 214 is positioned over the entire front surface 216 ofthe electronic device. Thus, the cover glass 214 is disposed over thedisplay, the first camera 202, and the enclosure 206. In otherembodiments, the cover glass 214 can be disposed over one or moreportions of a surface or surfaces of the electronic device.

As shown in FIGS. 2A-2B, the electronic device 200 is implemented as asmart telephone. Other embodiments, however, are not limited to thistype of electronic device. Other types of computing or electronicdevices can include one or more cameras, examples of which include anetbook or laptop computer, a tablet computing device, a wearablecomputing or display device such as a watch or glasses, a digitalcamera, a printer, a scanner, a video recorder, and a copier.

The enclosure 206 can form an outer surface or partial outer surface andprotective case for the internal components of the electronic device206, and may at least partially surround the display 210. The enclosure206 can be formed of one or more components operably connected together,such as a front piece and a back piece. Alternatively, the enclosure 206can be formed of a single piece operably connected to the display 210.

The I/O member 208 can be implemented with any type of input or outputmember. By way of example only, the I/O member 208 can be a switch, abutton, a capacitive sensor, or other input mechanism. The I/O member208 allows a user to interact with the electronic device 200. Forexample, the I/O member 208 may be a button or switch to alter thevolume, return to a home screen, and the like. The electronic device caninclude one or more input members or output members, and each member canhave a single I/O function or multiple I/O functions.

The display 210 can be operably or communicatively connected to theelectronic device 200. The display 210 can be implemented with any typeof suitable display, such as a retina display or an active matrix colorliquid crystal display. The display 210 can provide a visual output forthe electronic device 200 or function to receive user inputs to theelectronic device. For example, the display 210 can be a multi-touchcapacitive sensing touchscreen that can detect one or more user touchand/or force inputs.

FIGS. 3-5 are simplified cross-sectional views of examples of theelectronic device 200 taken along line A-A in FIG. 2A. As shown in FIG.3, a first cover glass 300 is disposed over the surface 216 of theelectronic device 200. The first cover glass 300 has a thickness T1. Anopening 304 can be formed through the first cover glass 300 around thelight-receiving region 306 of a camera 308. In some embodiments, thelight-receiving region of the camera is associated with one or moreimage sensors 310 included in the camera.

A second cover glass 312 can be disposed in the opening 304. The secondcover glass 312 has a thickness T2, and T2 is less than T1. The thinnersecond cover glass 312 can be made of any suitable material, including,but not limited to, sapphire, glass, acrylic, plastic, and variouscombination thereof. In some embodiments, the second cover glass 312 isa first lens in optical communication with the camera 308. Additionallyor alternatively, a second lens 314 can be positioned between the secondcover glass 312 and the camera 308. The second lens 314 can be formedwith one or more lenses that each have any given shape and dimensions.Example shapes include, but are not limited to, circular, lozenge, ortriangular.

The second cover glass 312 can attach to one or more brackets 316. Thebracket or brackets 316 can have any given configuration and size, andcan be positioned at any location. Additionally or alternatively, thesecond cover glass 312 can be attached to a frame (not shown) thatattaches to the first cover glass 300. Any suitable attachment mechanismcan be used to attach the second cover glass 312 to the bracket(s) 316and/or to the frame. By way of example only, an adhesive material and/ora fastener can be used to attach the second cover glass 312 to thebracket(s) 316 and/or to the frame.

The opening 304 and the thinner second cover glass 312 providesadditional space 318 for the camera 308 and/or the optional second lens314. In some embodiments, a higher quality camera can be included in theelectronic device 200 when the additional space 318 is present. Forexample, a higher quality camera can include a larger sensor, higherquality lenses, an autofocus feature, and/or a flash module. In someembodiments, a front-facing camera (e.g., camera 202) can be of equal ornear-equal quality as a rear-facing camera (e.g., camera 204).

The embodiment shown in FIG. 4 is similar to the embodiment shown inFIG. 3 except that the opening 304 in the first cover glass 300 islarger. The second cover glass 314 is disposed over the light-receivingregion 306 and at least part of one or more non-light receiving regions400 of the camera.

The cross-sectional view in FIG. 5 includes a monolithic cover glass500. The cover glass 500 has a region 502 that is thinner than otherareas 504 of the cover glass 500. Region 502 can have any given shapeand dimensions. The thinner region 502 can be disposed over thelight-receiving region 306 of the camera 308. Additionally, the thinnerregion 502 can have a size and/or shape that positions the thinnerregion over some or all of the non-light receiving regions of the camera306. Like the first and second cover glasses 300 and 312, the coverglass 500 can be make of any suitable material such as sapphire, glass,plastic, and various combinations of materials.

In some embodiments, the thinner region 502 can be shaped such that thethinner region acts as a lens. The lens can be in optical communicationwith the light-receiving region 306 of the camera 308. Additionally oralternatively, the second lens 314 can be positioned between the thecover glass 500 and the camera 308. The thinner region 502 providesadditional space 506 for the camera 308 and/or the optional second lens314.

FIG. 6 is a flowchart of a method for producing the cover glassarrangement shown in FIG. 5. Initially, a thinner region can be formedin a monolithic cover glass, as shown in block 600. The thinner regioncan be formed with any known cutting, shaping, or trimming process. Thelocation of the thinner region can correspond to a light-receivingregion of a camera, or to the light-receiving region and at least a partof one or more non-light receiving regions of the camera.

Next, as shown in block 602, the cover glass arrangement can be attachedto the electronic device. As described earlier, any suitable attachmentmechanism can be used to connect the cover glass arrangement to theelectronic device. For example, an adhesive material and/or a fastenercan attach the cover glass arrangement to the electronic device.

FIG. 7 is a flowchart of a method for producing the cover glassarrangement shown in FIGS. 3-4. Initially, an opening can be formedthrough a first cover glass (block 700). The opening can be formed usingany suitable process. For example, the opening can be formed through thefirst cover glass by etching or grinding the first cover glass. Thelocation of the opening can correspond to the light-receiving region ofa camera, or to the light-receiving region and at least a part of one ormore non-light receiving regions of the camera.

A second cover glass can then be positioned in the opening, as shown inblock 702. The thickness of the second cover glass is less than thethickness of the first cover glass. The cover glass arrangement can thenbe attached to the electronic device. In one embodiment, the first coverglass is affixed to a frame in the electronic device. The second coverglass can be attached to the first cover glass, to one or more brackets,and/or to the frame attached to the first cover glass.

Various embodiments have been described in detail with particularreference to certain features thereof, but it will be understood thatvariations and modifications can be effected within the spirit and scopeof the disclosure. And even though specific embodiments have beendescribed herein, it should be noted that the application is not limitedto these embodiments. In particular, any features described with respectto one embodiment may also be used in other embodiments, wherecompatible. Likewise, the features of the different embodiments may beexchanged, where compatible. For example, although the embodiments shownin FIGS. 3-5 depict the front-facing first camera 202 (FIG. 2), thoseskilled in the art will recognize that the invention can be used withthe rear-facing second camera 404. Additionally, a cover glassarrangement can include multiple openings with a second cover glasspositioned in each opening, or multiple thinner regions formed in acover glass. Additionally or alternatively, a cover glass arrangementcan include both one or more openings with a second cover glasspositioned in each opening and one or more thinner regions.

What is claimed is:
 1. An electronic device, comprising: a camera; afirst cover glass disposed over the camera; an opening formed throughthe first cover glass over a light-receiving region of the camera; and asecond cover glass positioned in the opening over the light-receivingregion of the camera, wherein a thickness of the second cover glass isless than a thickness of the first cover glass.
 2. The electronic deviceas in claim 1, wherein the second cover glass comprises sapphire.
 3. Theelectronic device as in claim 1, wherein the second cover glasscomprises a lens in optical communication with the light-receivingregion of the camera.
 4. The electronic device as in claim 1, whereinthe electronic device comprises a smart telephone.
 5. An electronicdevice, comprising: a camera; and a monolithic cover glass disposed overthe camera, wherein the cover glass includes a thinner region over alight-receiving region of the camera.
 6. The electronic device as inclaim 5, wherein the cover glass comprises sapphire.
 7. The electronicdevice as in claim 5, wherein the thinner region comprises a lens inoptical communication with the light-receiving region of the camera. 8.The electronic device as in claim 5, wherein the electronic devicecomprises a smart telephone.
 9. A method for producing an electronicdevice, comprising: providing a first cover glass having an openingformed through the first cover glass, wherein a location of the openingcorresponds to a light-receiving region of a camera; and providing asecond cover glass in the opening, wherein a thickness of the secondcover glass is less than a thickness of the first cover glass.
 10. Themethod as in claim 9, further comprising providing a camera in theelectronic device.
 11. The method as in claim 9, further comprisingattaching the first and second cover glasses to the electronic device.12. The method as in claim 9, wherein providing a second cover glass inthe opening comprises providing a sapphire cover glass in the opening.13. The method as in claim 9, wherein providing a second cover glass inthe opening comprises providing a lens in the opening such that the lenscan be in optical communication with the light-receiving region of thecamera.
 14. A method for providing an electronic device, the methodcomprising: providing a camera in the electronic device; and providing amonolithic cover glass over the camera, wherein the cover glass includesa thinner region over a light-receiving region of the camera.
 15. Themethod as in claim 14, wherein providing a monolithic cover glass overthe camera comprises providing a monolithic cover glass over a surfaceof the electronic device.
 16. The method as in claim 14, whereinproviding a monolithic cover glass over the camera comprises providing amonolithic sapphire cover glass over the camera.
 17. The method as inclaim 14, wherein the thinner region over the light-receiving region ofthe camera comprises a lens in optical communication with thelight-receiving region of the camera.